Conclusions
An investigation was conducted of the properties of the intermediate layer on the graphite/liquid copper-chromium alloy interface. It has been established that this layer consists of carbides. The kinetics of growth of the carbide layer was studied. It has been found that the rate of increase of the layer thickness as a function of time over the temperature range 1150–1250°C obeys the law h1.5 = S · t.
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Yu. V. Naidich and G. A. Kolesnichenko, Poroshkovaya Met., No. 6, 55 (1961).
K. Hauffe, Reactions in Solids and on Their Surface, Parts I and II [Russian translation], Moscow-Leningrad (1962).
G. V. Samsonov, Collection: Physics and Physicochemical Analysis, No. 1 [in Russian], Moscow (1957).
P. L. Gruzin, S. V. Zemskii, and I. B. Rozina, Collection: Metallurgy and Metallography of Pure Metals [in Russian], Sb. MIFI, No. 4, edited by V. S. Emel'yanov, Gosatomizdat (1963), p. 243.
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Translated from Poroshkovaya Metallurgiya, No. 2, pp. 76–79, February, 1968.
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Naidich, Y.V., Kolesnichenko, G.A. Investigation of the wetting of diamond and graphite by molten metals and alloys V. Carbide-formation kinetics at the graphite/metallic melt interface. Powder Metall Met Ceram 7, 139–141 (1968). https://doi.org/10.1007/BF00774308
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DOI: https://doi.org/10.1007/BF00774308